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李建章

(北京林業大學材料科學與技術學院教授)

鎖定
李建章,男。北京林業大學材料學院教授,博士生導師 [1]  。全國木材節約代用專家顧問組成員。
中文名
李建章
國    籍
中國
民    族
畢業院校
天津大學應用化學系高分子化工專業
日本島根大學/鳥取大學 [16] 
職    業
教師
主要成就
國家高層次人才計劃入選者 [2]  [5] 
主要成就
2009年度國家技術發明二等獎 [3] 
北京市科學技術獎
北京市發明專利
寶鋼優秀教師
出生地
河南省內黃
研究領域
木材膠黏劑與木基新材料 [4] 
職    稱
北京林業大學教授
性    別
[16] 

目錄

  1. 1 人物經歷
  2. 2 學科兼職
  3. 3 主講課程
  1. 4 科研工作及成果
  2. 5 研究方向
  3. 6 發表著作
  1. 7 獲獎記錄

李建章人物經歷

1984.09 - 1988.07: 天津大學,應用化學系高分子化工專業,本科/學士;
1988.07 - 1996.10: 北京林業大學,森工學院,講師;
1996.10-2001.09 日本島根大學/鳥取大學,獲碩士/博士學位; [1] 
2001.09 - :北京林業大學材料學院教授。

李建章學科兼職

李建章主講課程

主講的課程包括《膠黏劑與塗料》《木質複合材料與膠黏劑》及《高分子概論》等本科生及研究生課程。

李建章科研工作及成果

從事環保型木材膠黏劑與木基新材料研究工作,主持完成/在研國家重點研發計劃、科技支撐計劃、林業公益性科研專項(重大)、國家自然科學基金、教育部“優秀青年教師資助計劃”等課題30多項,發表論文380多篇,授權發明專利70餘件。第一完成人獲國家技術發明二等獎、高等學校科學研究優秀成果獎(科學技術)技術發明一等獎、梁希林業科學技術獎技術發明一等獎、北京市科學技術三等獎、北京市首屆發明專利三等獎,第二、第三完成人獲得省部級科技進步獎一等獎、二等獎多項。培養研究生80多名。 [16] 

李建章研究方向

  1. 木材膠黏劑;
  2. 木質複合材料 [1] 

李建章發表著作

  1. Spider silk-inspired high-performance soybean meal-based adhesive reinforced by greenly produced chitosan-functionalized boron nitride nanosheets, Chemical Engineering Journal, 2022. [6] 
  2. Preparation of a strong, mildew-resistant, and flame-retardant biomimetic multifunctional soy protein adhesive via the construction of an organic-inorganic hybrid multiple-bonding structure, Chemical Engineering Journal, 2022. [7] 
  3. Tough protein based adhesive reinforced by molecular spring strengthening strategy, Chemical Engineering Journal, 2022. [8] 
  4. A hair fiber inspired bio-based adhesive with high bonding strength and mildew tolerance, Chemical Engineering Journal, 2022. [9] 
  5. Development of a multifunctional nanocomposite film with record-high ultralow temperature toughness and unprecedented fatigue-resistance, Chemical Engineering Journal, 2022. [10] 
  6. Bioinspired mineral–organic strategy for fabricating a high-strength, antibacterial, flame-retardant soy protein bioplastic via internal boron–nitrogen coordination,Chemical Engineering Journal, 2021. [11] 
  7. A tough, anti-mildew and anti-counterfeiting soybean protein adhesive enhanced by gecko-inspired functional fiber and bio-based epoxide, Journal of Cleaner Production,2021 [12] 
  8. Thermo-controlled, self-released smart wood tailored by nanotechnology for fast clean-up of highly viscous liquids, Smatmat, 2022. [13] 
  9. Durable, flexible, and super‐hydrophobic wood membrane with nanopore by molecular cross‐linking for efficient separation of stabilized water/oil emulsions,Ecomat,2022. [14] 
  10. Bioinspired dual-crosslinking strategy for fabricating soy protein-based adhesives with excellent mechanical strength and antibacterial activity,Composites Part B Engineering,2022. [15] 
  11. Achieving strong, stable, and durable underwater adhesives based on a simple and generic amino-acid-resembling design. Materials Horizons, 2023.
  12. Scalable Manufacturing of Environmentally Stable All-Solid-State Plant Protein-Based Supercapacitors with Optimal Balance of Capacitive Performance and Mechanically Robust, Small, 2023.
  13. Biomimetic cellulose-nanocrystalline-based composite membrane with high flux for efficient purification of oil-in-water emulsions, Journal of Hazardous Materials, 2023.
  14. A soy protein-based adhesive with improved mechanical and electromagnetic shielding properties by employment of core@double-shell BT@PDA@PANI fillers, Chemical Engineering Journal, 2023.
  15. Barley – a yet un-tapped feedstock for improved vegetable protein-based wood adhesives, Journal of Materials Chemistry A, 2023.
  16. A novel sol-gel strategy for constructing wood fibers and aramid nanofiber nanocomposite with strong, tough and recyclable properties, Composites Science and Technology, 2023.
  17. A bio-based adhesive reinforced with functionalized nanomaterials to build multiple strong and weak cross-linked networks with high strength and excellent mold resistance, Chemical Engineering Journal, 2023.
  18. Design of tough, strong and recyclable plant protein-based adhesive via dynamic covalent crosslinking chemistry, Chemical Engineering Journal, 2023.
  19. Scalable Underwater Adhesives with High-Strength, Long-Term, and Harsh-Environment Adhesion Enabled by Heterocyclic Chemistry, ACS Applied Materials & Interfaces, 2023.
  20. A strong and biodegradable wood particles-based bioplastic modified by synergistically dynamic cross-linking with tannic acid and Fe3+, Composites Part B Engineering, 2022.
  21. High performance, shape manipulatable transparent wood based on delignified wood framework and exchangeable dynamic covalent vitrimers, Chemical Engineering Journal, 2023.
  22. A 3D Smart Wood Membrane With High Flux and Efficiency for Separation of Stabilized Oil/Water Emulsions, Journal of Hazardous Materials, 2022.
  23. 脲醛樹脂固化機理及其應用, 北京林業大學學報, 2007. [16] 

李建章獲獎記錄

國家高層次人才計劃入選者 [2]  。曾獲國家技術發明二等獎、北京市科學技術獎、北京市發明專利獎、海峽兩岸林業敬業獎勵基金、寶鋼優秀教師獎等。有突出貢獻中青年專家、 國務院政府特殊津貼、北京市高校優秀共產黨員、首都教育先鋒科技創新先進個人。 [16] 
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